US2550613A - Means for anchoring wobble plates - Google Patents

Description

p 1952 E. E. K. SPARMANN 2,550,613

MEANS FOR ANCHORING' WOBBLE PLATES Filed Dec. 10, 1946 2 Sheets-Sheet l April 24, 1951 r E. E. K. SPARMANN 2,550,613

MEANS FOR ANCHORING WOBBLE PLATES Filed Dec. 10, 1946 2 Sheets-Sheet 2 Patented Apr. 24, 1951 UNITED TATES PATENT oFFICE Edmund Ernst Karl Sparmann,

Stockholm, Sweden Application December 10, 1946, Serial-No. 715,265

1 In Sweden December 10, I945 11 Claims. r 1 I The present invention relates to automatic governing means for anchoring of wobble-members in piston engines having wobble-type driving gears and has for its purpose to improve and to simplify the necessary means for preventing rotation thereof. Because the wobble member serves to take up the reaction moment of the machine it must be able to withstand the relatively great stresses occurring in operation while, at the same time, it must guide the points of connection or links of the engine pistons respectively in mutually congruent looped paths of lemniscate shap in three-dimensional space. a a

According to theinvention the means for preventing rotation of the wobble-plate in relation to" the engine frame consists of a .lemniscate link guide the arrangement'being such that in the plane of the wobble-plate all points equidistant from the center thereof describe at least approximately mutually congruous paths of-lemniscate shape in three-dimensional space; 7

As the kinematics of the spherical crank operation is not very familiar even in technical circles there will follow first a brief explanation of the pertinent questions having reference to the principal diagrams Figs. 1 to 5.

In the drawings, Figs. 1 and 2 diagrammatically illustrate a wobble-plate gear'in two different projections.

Figs. 3, 4 and 5 show in three projections an embodiment of a so called lemniscatelink guide and the principal application thereof to the present invention. j

Fig. 6 is an elevational view showing the elements constituting the lemniscate link guide;

I Figs? is a plan view of the elements shown in Fig. 6' with parts in section for greater clarity.

Fig. 8 is an elevational view showing in detail one of the elements employed in link guideof Fig. 6; V

Fig. 9 is an elevational View similar to Fig. 8 with parts in section for greater clarity;

the lemniscate Fig. 10 is a plan view of the parts shown in common base plane, here coinciding withithe wobble-plate plane, and is rotatably supportedon] the inclined crank pins of the engine shaft I. In

the wobble-plate plane a number of radially pro-,

jecting connection pins 3, 4 and 5 are provided, the fourth of them not being visible in Fig. 1 and omitted in Fig. 2. These pins correspond to the number of engine cylinders or pairs of such cylinders and are connected to the pistons by suitable means such as connecting rods. The cylinders, pistons and associated parts are omitted from the drawing in order to better illustrate th principle of the device. a

In order to transfer the reciprocating move ment of the engine pistons arranged around the engine shaft 1 in parallel relation thereto into rotary movement of the engine shaft or vice versa,

the wobble-plate body 2 must be prevented from,

rotating in relation to the engine frame. As previously mentioned means must be provided to allow the wobble-plate to carry out its characteristic movement without rotation with relation.

to the engine frame.

In order'to insure that all oscillating masses,

such as the wobble-plate body, the engine pistons and their associated parts are entirely dynamical 1y. balanced the kinematic fundamental requirement is that in the wobble-plate plane all points equidistant from the center 0 thereof, including the piston connection points describe mutually V the principal shape of the lemniscate shaped paths in three dimensions. The curve IV is viewed in radial direction towards the wobble plate and the curves III and V in tangential di- 7 rection thereto. The angle a is purposely made larger than that preferred in a practical embodiment in order to exaggerate the looped paths for the sake of clarity. In a projection viewed parallel to the system axis as shown in Fig 2 the loop lines 111, IV and V appear as circles III, IV and V having a diameter equal to R.(1cos. a) and these circles are traced twice for each revolution of the engine shaft I, the trace occurring in thesame direction as the direction of rotation of the shaft l. The great;circle having the radius R circumscribes' the circular projections of the paths; '7 1 I a s v l ct ons ave b en warn s W the kinematic requirements for enforcing the tracing of lemniscate shaped paths on a spherical surface are theoretically complied with. None of the hitherto proposed structural solutions have, however, been a success in practice as they are either too complicated and thus too expensive to manufacture and too sensitive in operation, or because they could not be so constructed that they were able to withstand the stresses encountered in operation.

The present invention provides in contradistinction thereto a simple and solid structure in-. volvin low manufacturing costs. The inventive solution of the structural problem permits; liberal dimensioning of all parts in relation to the stresses occurring and; has the. advantage.

that the space requirements and the. weight of the structure are small. The invention meets all the practical requirements and particularly affords reliability of operation and durability.

- The invention consists essentially in coupling a wobble-plate gear to a guide system known asa lemniscatelink guide in such a way that. both mechanisms pass through their dead points simultaneously and in selecting the elements of the lemniscate link guide of the proper dimensions and proportions whereby the necessary looped paths of the wobble-plate gear are automatically enforced.

In the accompanyin drawings only that principal embodiment of the lemniscate link guide is-shown which appears to be the most suitable one for the desired purpose. This link guideconsists, as shown in the diagrammatic Figs. 3, 4 and 5, of two links 8 and 9 swingably secured at the points Ill and II- to the engine frame. These links are pivotally secured to a-connecti-ng member l2 of considerablyshorter length bymeans of pivot pins at the points l3 and I4. At the mid point l-- of the connecting member l2 there is provided a universal joint, by means of which the lemniscate link guide is connected with the wobble-plate at a point in the plane thereof. Of course, the links 8' and- 9- must be supported on the engine frame at the points [0 and II in a manner permitting at least two de-- grees of freedom so that the point may more along a spherical path-.. The lemniscate flink' guide at: the same time forces the point l5 to move only in the looped path of lemniscate shape determined by the proportions of the lemniscate guide whereby wobble-plate is caused to perform the characteristic wobbling movement.

In order to more clearly show the; operation of. the device an angle a. greater than is-flnormally practical has been selected and this angle re'-. sults in an exaggerated. showing or the path in Fi s... 3 to 5-. For he. same. reason he Wobblepl tself. has b n omitted. and. in Figs 4-.- and o y e wobble-p ate center Q is shown. in dd on. a d u R. of the wobble-plate plane.- is, coupled with point [5- of; the connectin them-.- t and nally, he. mpli ude is. of; a s i pl n c u ing the. system a is. is. shown in Fi 5 an he app nt; tan ent al: am:- Pl de is in. a plan p rp ndicular o the sys tern, axis is shown in Fig. 4,

I the engine shaft. I; is: rotated the radius.- R of, the wobble-plate plane. describes its- QSOfllBztring. movement withv the angle a. in a plane in-; cluding the system axis. whereby, due to the connection at the point ['5 the connecting member- 12 and the lemniscate link guide secured thereto are forced to move between theirdead tion over the angle ia. The lemniscate link guide passes through the intermediate positions 8', 9 and 8", 9" et cetera as shown in dash and dotted lines respectively until upon a complete revolution of the shaft l the entire loop line IV of Fig. 3 has been traced. The width (1 of the looped curve depends on the lengths of the links 8 and 9 with relation to the distance between the attachment points to the engine frame I0 and H.

Fig. 4 shows an axial projection of the device in whichthe loop. line, as already mentioned, appears as a circular line IV traced twice for each cycle. The lemniscate link guide is shown in both dead center points and in the middle position corresponding to the point of intersection ogf the looped curves as the line [0, ll. As it always must follow the loop line the radius R- performs an apparent harmonic oscillation as viewed in axial direction with a double frequency through the angle :5;

In Fig. 5 the looped curve appears as a wavy line. The radius R, performs a harmonic oscillation having an amplitude of :a in a plane including the system axis and in accordance with the fundamental frequency. The link guide ap-- pears in this projection always as a straight line and more particularly in the dead center points as a chord to the arc having the angle a and the radius R whereasin the middle positions 13, 14, 15 the link guide coupled to the. wobble-plateappears as a tangent.

In addition to the form of the lemniscate link guide illustrated in the drawing other forms may also be used. In many cases it. might also. be f nd preferable not to couple. a point. in the wobble-plate plane orthe. correspondin radius directly to, the link guidebu-t to. couple the lemniscate linkguide, to the piston. connecting rod or the like. In such cases-it may also. be necessary to guide this connecting; point. along a loop line traced on a cylindrica :v surface which is coaxial to the system axis rather than on a spherical surface. To illustrate and describe all conceivable modifications andcombinations is, of course,

not practical and therefore the; drawing and the specification are limited to the principle and the corresponding forms which present the inventive idea in the clearest manner and which probably set forth the mostuseful embodiment.

As above stated the figures are intentionally hown with an exa geratedangle. a. In reality, i. eat normal values of the angle a, th looped curves. will be considerably narrower. If a lemmscate. link guide is to govern such narrow looped; curves as will occur in the practical application of wobble-plate. driving sears thenthe; connecting member l2 will have tovbereduced to such a comparatively small length that, it; would be difiicult to make the pivotal connections iii-and l4 sumciently large to. carry the resulting loads not to speak of the necessity for finding space between these, pin joints for the necessary universal joint connection with the wobble-plate.

The lemniscate link guide. which, according to the invention, is intended to guide. automatically and. positively the looped-paths. in three dimen sions must, imultaneously absorb the reaction. moment of; the engine. As the. wobble-gear is, used to, accommodate a relatively large number of engine cylinders. arranged concentrically around a drivin gear. the. reaction moment. to. be aborb'ed is comparatively large; requires. subs ant ally large. h aring areas. in the guiding ech n sm to ensure relia ility of op ration. and.

center pointai. e. to participate intheos'cilla- 7 dlnabilitythereofi In Fig. 6 there is shown a looped curve IV in accordance with a practical embodiment of the invention. From this figure it is apparent how short the connecting member I2 must be in an,

actual embodiment, the size of this member corresponding to the distance between the connection points I3 and I4. Figs. 6 and 7 illustrate a designer a lemniscate link guide which makes possible the practical application of the invention.

1 In Figs. 6 and 7, the numerals 8 and 9 indicate the links of the lemniscate link guide, which may swing about the corresponding connecting points or bearing pins I and II. In view of the fact that the links'8 and 9 are directly connected through connecting member I2 with connecting stud 4 on the wobble-plate, the guide links 8 and 9must be secured to the suspension points I0 and I I on the engine frame by a ball joint, so that the the wobble-gear at point I5 of the connection member.

In Fig. 7 which shows a projection of Fig. 6 in a' direction parallel to the system axis the connection of the link 8 to the engine frame is shown in section taken on line X-X of Fig. 6, whereas the universal joint at the connection point I5 common to both mechanisms as well as the connecting member I2 is shown as taken on the line Z--Z in Fig. 6.

From Figs. 6 to it appears that the connecting member I2 of thelemniscate link guide has a' special design which appears most clear from Figs. 8 to 10. Fig. 8 is a view of the connecting member I2 axially of the pivot pins I3 and I4 connecting the member I2 to the links 8 and 9 of the lemniscate link guide. The link pins I3 and I4 are in Figs. 8 to 10 enlarged so as to form eccentric discs I 30; I00 and MI overlapping one another. These discs are of such a size that the overlapping thereof will accommodate the universal or ball joint at point I5. The entire connecting member I2 of the lemniscate link guide comprises only the eccentric discs I30, I40 and MI positioned side by side and overlapping one another. These discs at the same time replace the pivot pins I3 and Id of an-ordinary lemniscate link guide. Spherical recesses are provided in theconnecting member I2 for receiving the may be rotated 90 degrees to properly dispose the same within the spherical recess. The link 2I may then be secured to a connecting pin 4 on the wobble-plate by means of spacing springs 22 and a nut or the like 23. This provides an articulated connection between the wobble-plate and the lemniscate link guide.

A 6 A similar structure may be utilized to secure links 8 and 9 to the bearing mounts I00 and H0 on the engine frame.

Fig. 9 shows a section through the connecting member I2 on a line Y-Y in Fig. 7. In order to prevent any lateral tilting due to unsymmetrical application of forces on the connecting member I2 one eccentric is preferably formed with two symmetrical portions I40 and MI.

Fig. 10 illustrates the connecting member I 2 asviewed in the direction of the arrow A in Fig. 8. While the above described mechanism is theoretically correct and operative in actual practice it would be difficult to maintain manufacturing; tolerances sufficiently close to preclude the danger of undue shock and strain when passing through ment appears to be a yieldable mount for one of the points I0 or II on the engine frame.

In Figs. 3 and 4 a yieldable mount is shown by way of example and comprises a link I02 pivotally mounted on a pin I03 the opposite end of the link I02 being pivotally secured to link 8.' Oscillation of the link I02 is restricted in both" directions by rubber cushions or the like I04 and I05, which are secured to the engine frame- A relatively small movement of link I 02 is sufficient to prevent undesirable shocks in the mechanism,

and this structure does not interfere with the proper guidance of the wobble-plate. Of course, both attachment points I0 and II may be provided with yieldable securing means, or yieldable means may be provided in other parts of the mechanism. The above described form however appears preferable.

It has been found that proper movement of the wobble-plate may be obtained by attaching the guiding mechanism to only one point in the wobble-plate plane. Of course a plurality of guiding mechanisms may be employed but this unnecessarily increases the cost and results in additional mechanical difficulties.

It is further not necessary -to take special measures to ensure that the different movements in different paths of the lemniscate link guide take place in the correct order of sequence or that the path after reaching a dead center point is not retraced along the same branch of the path already traced. Such an operation is prevented by the continuous load on the link guide which effectively prevents a reverse movement thereof. This undesirable operation is further prevented by locating the center of gravity of the link guide as referred to its midpoint I5 in a direction opposite to the direction of rotation of the engine shaft I. This results in an inertia loading of the guide in a direction resisting backward movement thereof.

Obviously this invention may be applied to wobble-plates of many different shapes and variations of the link guide are also possible. For example, the points I0 and I I may be secured to the wobble-plate and the connecting member I2 may be secured to the engine.

The examples shown and described are to be considered as merely illustrative of the principles of the invention and in no way a limitation thereof.

It will be obvious to those skilled in the art that various changes may be made in the inven- 1 tion without departing from the'spirit and scope thereof and therefore the invention is not. limited by that which is shown in the. drawings and ole-- scribed in the. specification but only as indicated in' the appended claims.

Iclaim:

1. In an apparatus for guiding the movement of a-wobble-plate, a support, a. rotatable shaft mounted on said support, means securing the wobble-plate to said shaft at. an angleto the axis thereof, a pair of links, a common connecting member for said pair of links pivotally secured to one. end of each link of the pair, means comprising a universal joint pivotally securing said connecting member to said wobble-plate at a point. in the wobble. plane thereof, universal joints: pivotally securing the opposite ends of said links to said support, said'l-inks. and said connecting member constituting a lemniscate link guide whereby the point. of attachment of saidconnecting member to said wobble-plate is guided in a lemniscate path.

2. In an apparatus for guiding. the movement of a wobble-plate, a support, a rotatable shaft mounted on said support, means securing the wobble-plate to said shaft at. an angle to the. axis thereof, a. pair of links, a common connecting member for said pair of links pivotally secured tolone end of each link of the pair, means pivotally securing the midpoint of said connecting member to said wobble-plate at a point in the wobble plane thereof, the. opposite ends of said links being pivotally mounted on said support, said links and said connecting member constituting a lemni'scate link guide whereby the pointof attachment of said connecting member to said wobble-plate is guided in a lemniscate path.

3.. An apparatus a defined in claim 1 in which said common connecting member comprises offset eccentric discs, a spherical recessin said discs anda spherical member carried by said wobble-plate and disposed in saidrecess, said eccentric discs constituting the pivot connections between said links and said common connecting member, and said sphericalrecessand spherical member providinga universal joint.

4, In an apparatus for guiding the-movement of a wobble-plate, a support, a rotatable shaft mounted on said support, means of securing the wobble-plate to said shaft, and a lemniscate link guide for guiding a point on said wobble-plate in a lemniscate path comprising three link members serially connected by articulate joints, means providing a pivotal connection between said wobble-plate and the intermediate one of said link members and means providing pivotal connections between said support and the remaining ones of said link members.

Apparatus as defined in claim 4, in which said link members are rigid, said articulate joints provide for pivotal movement between. said intermediate member and the remaining link members only in a common plane and the means providing said pivotal connections provide for universal movement between said intermediate link. member and the wobble-plate on the one hand and universal movement between the remaining links and said support on the other hand.

6; Apparatus as defined inclaim 4; in which the means providing at least one of said pivotal connections includes a yieldable element.

7. Apparatus: as defined in claim 4, in which the means providing at least one of said pivotal connections includes a yieldable element yieldableonly in a direction substantially parallel with the axis of rotation of said shaft.

8. Apparatus as defined in claim 4, in which" the means providing at'leastone of said pivotal connections includes a yieldable element and resilient material for resisting movement of saidyieldable element.

9. Apparatus as defined inclaim 4, in which the-means providing a pivotal connection between said support and at least one of said remaining link members includes a yieldable element.

10'. In apparatus of the character described, the combination with a shaft carrying a wobbleplate member inclined at an angle to the axis'of rotation of the shaft and a support member with respect to which said shaft is rotatabl-y mounted, of guide means for causing a given point on said wobble-plate member in the wobble plane thereofto follow a lemniscate path of motion upon relative rotation between said shaft and said support member, said guide meanscomprising an articulated linkage connecting said point and said support member, said linkage comprising a pair of relatively long link members each connected at one of its ends to a different placeon a relatively short connecting link, said short link being pivotally connected to one of said members at a place on the short link other than the place of attachment thereto of either of said relatively long links and the other ends of said relatively long links being pivotally connected to the other one of said members.

11". An apparatus as defined in claim 1 in which, the portion of the total mass of the link guide, considered in the direction of normal rotation of said shaft, on the side in advance of said point of attachment is less than the mass of the re- 7 m'aining portion of the link guide, whereby an inertia loading is applied to the link guide at the dead centerpositions thereof resisting backward movement of said guide to thereby cause said guide to follow the desired's'equence of movements.

EDMUND ERNST KARL SPARMANN.

REFERENCES CITED The following references are of record in the file. of this patent:

UNITED STATES PATENTS

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